ES2733208T3 - Power adapter and terminal - Google Patents

Abstract

A power adapter (10), comprising a power conversion unit (11) and a charging interface (12), the power conversion unit (11) being configured to form a charging loop with a terminal through of the charging interface for charging a terminal battery, wherein, the power adapter (10) further comprises a communication unit (13) and an adjustment unit (14), the communication unit (13) is configured to receiving a battery parameter sent by the terminal, the battery parameter being used to indicate an amount of electrical current or a current voltage value of the terminal battery; and the adjustment unit (14) is configured to determine a target current value corresponding to the current voltage value or the amount of electric current of the battery, and to adjust an output current value of the power adapter (10) at the target current value; characterized in that, the communication unit (13) is configured to perform the following operations to receive the battery parameter sent by the terminal: send a request to obtain a charging parameter to the terminal; and receiving a response message for obtaining a charging parameter sent by the terminal, wherein the response message for obtaining a charging parameter comprises the battery parameter.

Description

d e s c r ip c io n

Power adapter and terminal

Technical field

The present invention generally relates to the technical field of charging, and more specifically to a power adapter and a terminal.

Background

With the progress of time, the Internet and the mobile communication network provide massive functions and applications. A user can not only use a mobile terminal to make conventional applications, such as using a "smartphone" to answer a call ^or call someone, but can also use the mobile terminal to search for a web page, transmit an image ^or Play to a Game, etc.

With the increasing frequency of use of the mobile terminal, it is required to charge the mobile terminal frequently. In the aforementioned technique, many power adapters charge the terminal with a constant current, which is easy to implement, but cannot adjust the charging current according to the actual situations of the terminal, which are flexible. For example, if the voltage of a battery is too low, it is better to use a large current to charge the battery quickly; If the battery voltage is too high, it is better to use a lower current to charge, so that overcharging is avoided.

Document US2011 / 037438 provides a system that charges a battery. During operation, the system obtains a set of load currents {I ⁱ , ..., I ⁿ } and a set of load voltages {V ⁱ , ..., V ⁿ }. Next, the system repeats the constant current and constant voltage load operations, starting with i = 1 and increasing i at each repetition, until an end condition is reached. These constant current and constant voltage charging operations involve charging the battery using a constant current l¡ until a battery cell voltage reaches V¡, and then charging the battery using a constant voltage V¡ until the charging current is less than ^or equal to ^{I¡ + i} .

US2005 / 174094 provides a battery charger that can include a charger connector to be coupled to a corresponding device connector of a portable device that includes a rechargeable battery. The battery charger may also include a charging circuit connected to the charger connector, and a controller connected to the charger connector and the charging circuit. The controller can be to make a portable device connected to the charger connector identify its corresponding type of portable device and its corresponding type of rechargeable battery between a plurality of different types of portable devices and different types of batteries, and to make the circuit charging charge the rechargeable battery based on it. US2013 / 038297 describes a load control method for adjusting a charging current of a charging device, which includes monitoring a working voltage of the charging device, wherein the working voltage includes a voltage difference between the voltage of charge and a battery voltage; adjust the charging current of the charging device dynamically according to the working voltage of the charging device to maintain the working power of the charging device within a predetermined power range.

Compendium

The embodiments of the present invention provide a power adapter and a terminal, so that the choice of charging current is increased flexibly.

The invention is defined by the features of independent claims 1 and 12. Preferred embodiments are defined in the dependent claims.

Brief description of the drawings

To make the technical solutions in accordance with the most obvious embodiments of the present invention, it is necessary to use drawings in the descriptions of the embodiments that will be illustrated in the following. Obviously, the drawings illustrated in the following only represent some embodiments of the present invention, and those skilled in the art can obtain other drawings according to these drawings without performing creative work. Fig. 1 is a block diagram of a power adapter according to an embodiment of the present invention.

Fig. 2 is a block diagram of a terminal according to an embodiment of the present invention.

Detailed description

The technical solutions in the embodiments of the present invention are described below clearly and completely with reference to the accompanying drawings in the embodiments of the present invention. Apparently, the Embodiments described are a part of the embodiments of the present invention, but not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without generating creative work will fall within the scope of protection of the present invention.

Fig. 1 is a block diagram of a power adapter according to an embodiment of the present invention. The power adapter 10 shown in Fig. 1 includes a power conversion unit 11 and a charging interface 12. The power conversion unit 11 is configured to form a charging loop with a terminal via the power interface. charge 12 to charge a terminal battery. The power adapter 10 further includes a communication unit 13 and an adjustment unit 14.

Communication unit 13 is configured to receive a battery parameter sent by the terminal. The battery parameter is used to indicate a current voltage value or an amount of electrical current from the terminal battery.

The adjustment unit 14 is configured to determine a target current value ^or the amount of electric current of the battery, and to adjust an output current value of the power adapter 10 to the target current value.

As an example, if the battery current voltage value is between 0 V and 4.3 V, the current voltage value can be set as 4 A; If the battery current voltage value is within the range between 4.3V and 4.32V, the target current value can be set as 3A; If the battery current voltage value is within the range between 4.32V and 4.35V, the target current value can be set as 2A; And if the battery current voltage value exceeds 4.35V, the current voltage value can be set as a few hundred mA.

In the embodiments of the present invention, the power adapter first obtains the amount of electric current from the battery current voltage coming from the terminal, and then adjusts the output current to the target current value corresponding to the amount of electric current or to the current voltage, thereby adjusting the output current of the power adapter according to the amount of electrical current or the battery current voltage of the terminal, which is more flexible compared to the technique referred. In one embodiment, the adjustment unit 14 is configured to determine the target current value corresponding to the current voltage value or the amount of electric current of the battery by performing the following operations consisting of: selecting a target range containing a value of current voltage from N intervals of voltage values, where N is a positive integer; determine a current value corresponding to the target range according to the target range and according to a correspondence between the N intervals and the N current values; and determine the current value corresponding to the target range as the target current value.

In at least one embodiment, the voltage values in the previous N intervals may not overlap each other, and the N intervals may be continuous intervals of voltage values, may be discrete intervals of voltage values.

In the aforementioned technique, a large constant current is normally used to charge the battery, which reduces the charging time to some extent, but it is easy to cause a safety risk. For example, during continuous charging with guarantor current, if the power adapter is not disconnected from the battery at the time when the battery is almost fully charged, it may damage the battery ^or the charging circuit, ^or even cause a fire. .

In one embodiment, a minimum voltage value in an interval ⁽ⁱ + 1) -th intervals N is greater than a maximum voltage value in the ith interval of N intervals, and a current value corresponding to the ^(t + 1) that interval is less than a current value corresponding to the ith interval in which i is an integer selected from 1 to N.

In the embodiments of the present invention, the higher the voltage values in the range of voltage values, the lower the current value corresponding to the range. In this way, the power adapter charges the terminal with constant current in multiple stages, in which the charging current is gradually reduced, thus avoiding the safety problem caused by always charging in terminal with a large constant current.

In one embodiment, the adjustment unit 14 is configured to determine the target current value corresponding to the current voltage value or the amount of electric current of the battery by performing the following operations consisting of: selecting a target range containing the value of current voltage from N intervals of voltage values, where N is a positive integer; determine a set of current values corresponding to the target range according to the target range and according to a correspondence between the N intervals and the N sets of current values; and select the target current value from the set of current values.

In one example, if the battery voltage value is within the range between 0 V and 4.3 V, the target current value can be set as 3.5 ~ 4 A; If the voltage value received from the battery is within the range between 4.3V and 4.32V, the target current value can be set as 3 ~ 3.5A; If the battery voltage value is within the range between 4.32V and 4.35V, the target current value can be set as 2 ~ 3A; And if the battery current voltage value exceeds 4.35V, the target current value can be set as a few hundred mA. In addition, the target current value can be selected from a set of random current values, ^or the average value in the current set of values can be selected as the target current value.

In one embodiment, the adjustment unit 14 is configured to determine the target current value corresponding to the current voltage value or the amount of electric current of the battery by performing the following operations consisting of: selecting a target range containing the value of current voltage from N intervals of voltage values, where N is a positive integer; determine the current value and a charging time respectively, corresponding to the target interval according to the target interval and according to a correspondence between the N intervals, N current values and N load times, and determine the corresponding current value at the target range as the target current value. The power conversion unit 11 is configured to charge the terminal during the charging time corresponding to the target interval according to the target current value.

For example, a mapping table of current values, charging time, and voltage value ranges can be set in advance on the side of the power adapter. When the battery current voltage value is obtained from the terminal, the corresponding current value (current value a) and charging time (charging time b) can be found by searching the mapping table, and then the Power adapter changes the terminal according to the current value a for the charging time b. At the end of the charging time b, the power adapter can obtain the current voltage value of the battery coming back from the terminal, and execute the present operation repeatedly.

In at least one embodiment, the power adapter can obtain the voltage value or the electrical quantity of the battery from the terminal only at the beginning of the charge, and then find the target current value corresponding to the voltage value or the quantity electric Next, the power adapter sends the target current value to charge the terminal, and the subsequent charging process can be performed according to the preset charging strategy without obtaining again the voltage ^or the electrical quantity of the battery from of the terminal. As an example, after being connected to the terminal, the power adapter obtains the battery's current voltage as 4 V, and determines the current corresponding to 4 V as 3 A, and then charges the terminal according to the charging strategy with 3 A for 10 minutes, charge with 2 A for 8 minutes, charge with 1 A for 6 minutes and charge with 500 mA for 3 minutes in sequence.

In one embodiment, the adjustment unit 14 is configured to determine the target current value corresponding to the current voltage value ^or the amount of electric current of the battery by performing the following operations consisting of: selecting a target range containing the amount of electric current from N intervals of electric quantity values, where N is a positive integer; and determine a current value corresponding to the target range as the target current value, according to the target range and according to a correspondence between the N intervals and the N current values.

In one embodiment, a minimum power amount in a range ⁽ⁱ + 1) -th N intervals is greater than a maximum electric quantity in ith interval of N intervals, and a current value corresponding to the ⁽ⁱ + 1) th interval is less than a current value corresponding to the ith interval, where i is an integer selected between 1 and N.

In one embodiment, the communication unit 13 is configured to receive the battery parameter sent by the terminal by performing the following operations consisting of: sending a request to obtain a charging parameter to the terminal; and receive a response message obtaining a load parameter sent by the terminal. The response message for obtaining a charging parameter includes the battery parameter.

In one embodiment, the communication unit 13 is configured to send the request message for obtaining a load parameter to the terminal periodically.

In one embodiment, the charging interface 12 includes a power line and a data line. The power conversion unit 11 is configured to form the charging loop with the terminal via the power line in the charging interface 12, to charge the battery of the terminal. The communication unit 13 is configured to receive the battery parameter sent by the terminal through the data line in the charging interface.

In combination with Fig. 1, the power adapter of the embodiments of the present invention has been described in detail. The terminal of the embodiments of the present invention is described in detail below with reference to Fig. 2. In at least one embodiment, the terminal and the power adapter are two entities that interact with each ^other during charging, the operations of Interaction ^or Interaction Information are Identical ^or corresponding for the two entities, and for greater simplicity the repeated description of them will be omitted.

Fig. 2 is a block diagram of a terminal according to an embodiment of the present invention. The terminal 20 shown in Fig. 2 includes a battery 21 and a charging interface 22. The terminal 20 forms a charging loop with a power adapter via the charging interface 22 to charge the battery 21. Terminal 20 it also includes a detection unit 23 and a communication unit 24. The detection unit 23 is configured to detect an amount of electric current ^or a current voltage value of the battery 21 of the terminal 20. The communication unit 24 is configured to send a battery parameter indicating the amount of electric current or the current voltage value to the power adapter, so that the power adapter sets an output current to a current value corresponding to the amount of electric current or to the current voltage value.

In the embodiments of the present invention, the terminal detects the amount of electric current ^or the current voltage value of the battery, and sends the battery parameter containing the amount of electric current or the current voltage value to the adapter. of power through the communication unit, thereby adjusting the output current of the power adapter according to the current voltage or the amount of electric current of the battery, which is more flexible compared With the referred technique.

In one embodiment, the communication unit 24 is further configured to receive a request message for obtaining a load parameter from the power adapter. The detection unit 23 is configured to detect the amount of electric current or the current voltage value of the battery after the message that request to obtain a charging parameter has been received. The communication unit 24 is configured to send the battery parameter indicating the amount of electric current or the current voltage value to the power adapter by sending the response message of obtaining a charging parameter to the power adapter, in which The response message for obtaining the charging parameter includes the battery parameter.

In one embodiment, the charging interface 22 includes a power line and a data line, the terminal 20 is configured to form the charging loop with the power adapter via the power line in the charging interface 22, To charge the battery. Communication unit 24 is configured to send the battery parameter indicating the amount of electric current or the current voltage value to the power adapter by sending the battery parameter to the power adapter via the data line in the interface loading Those skilled in the art can realize that the algorithm units and steps in the respective examples described with reference to the embodiments set forth in the present invention can be performed by electronic hardware ^or a combination of computer software and electronic hardware. . The performance of these functions in the hardware or software depends on the particular applications and the restrictive design conditions of the technical solutions. T ^he technology professionals can use different methods for performing the functions described for each particular application, which should be considered within the scope of the present invention.

^Those skilled in the art can clearly understand that, for greater convenience and simplicity of the description, the specific work processes of the previous system, devices and units can refer to the corresponding processes in the embodiments of the previous method, which will not be elaborated herein.

It is to be understood that the system, the devices and the method described in the different embodiments provided by the present invention can be practiced in any other way. For example, the device embodiments described above may be entirely by way of example, for example, the units are only divided according to logical functions. In practical implementation, the units may be divided in other ways, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted or may not be excluded. In addition, the mutual coupling ^or direct coupling ^or communication connection described ^or exposed may be by means of some interfaces, and the direct coupling or communication connection between the devices or units may be electrical, mechanical, or otherwise.

The units illustrated as separate components may ^or may not be physically separated, and the components described as units may or may not be physical units, that is, they may be located in one place, or they may be distributed in multiple network units. It is possible to select some or all of the units according to the real needs, to accomplish the objective of the embodiments of the present invention. In addition, the respective functional units in the respective embodiments of the present invention may be integrated in a processing unit, ^{or they} may be present as separate physical entities. It is also possible that two or more than two units are integrated into one unit.

If the functions are performed in the form of functional software units and are sold ^or used as separate products, they can be stored in a computer readable storage medium. Based on this interpretation, the parts of the technical solutions or the essential parts of the technical solutions (that is, the parts that make a contribution to the referred technique) can be embodied in the form of a software product, which is stored in a storage medium , and includes several instructions used to make a computer device (for example, a personal computer, a server ^or a network device) execute all ^or part of the steps in the methods described in the respective embodiments of the present invention. The above storage medium may be any medium capable of storing program codes, including a temporary USB memory disk, a portable hard disk, a read-only memory ( ^r O ^m ), a random access memory (RAM), a disk, or a light disk.

The above description is only directed to the preferred embodiments of the present invention, but should not be used to limit the present invention. Thus, the protection field of the present invention is limited by the protection field of the claims.

Claims (14)

re iv in d ic ac io nes 1. A power adapter (10), comprising a power conversion unit (11) and a charging interface (12), the power conversion unit (11) being configured to form a charging loop with a terminal through the charging interface for charging a terminal battery, where, the power adapter (10) further comprises a communication unit (13) and an adjustment unit (14), the communication unit (13) is configured to receive a battery parameter sent by the terminal, the battery parameter being used to indicate an amount of electrical current or a current voltage value of the terminal battery; and the adjustment unit (14) is configured to determine a target current value corresponding to the current voltage value or the amount of electric current of the battery, and to adjust an output current value of the power adapter (10) at the target current value; characterized in that, the communication unit (13) is configured to perform the following operations to receive the battery parameter sent by the terminal: send a request to obtain a load parameter to the terminal; Y receiving a response message for obtaining a charging parameter sent by the terminal, wherein the response message for obtaining a charging parameter comprises the battery parameter. 2. The power adapter (10) according to claim 1, wherein the adjustment unit (14) is configured to perform the following operations to determine the target current value corresponding to the current voltage value ^or to the amount of battery electric current: select a target range that contains the current voltage value from N ranges of voltage values, where N is a positive integer; determine a current value corresponding to the target range according to the target range and according to a correspondence between the N intervals and the N current values; Y Determine the current value corresponding to the target range as the target current value. 3. The power adapter (10) according to claim 2, wherein a minimum voltage value in a th (1 + 1) th interval of the N intervals is greater than a maximum voltage value in a ith th interval of N intervals, and a current value corresponding to the th interval ( ^í +1) is less than a current value corresponding to the ith interval, where i is an integer selected between 1 and N. 4. The power adapter (10) according to claim 1, wherein the adjustment unit (14) is configured to perform the following operations to determine the target current value corresponding to the current voltage value ^or the amount Battery electric current: select a target range that contains the current voltage value from N ranges of voltage values, where N is a positive integer; determine a set of current values corresponding to the target range according to the target range and according to a correspondence between the N intervals and the N sets of current values; Y Select the target current value from a set of current values. 5. The power adapter (10) according to claim 1, wherein the adjustment unit (14) is configured to perform the following operations to determine the target current value corresponding to the current voltage value or the amount battery electric current: select a target range that contains the current voltage value from N voltage value ranges, where N is a positive integer; determine a current value and a charging time respectively corresponding to the target interval according to the target interval and according to a correspondence between the N intervals, N current values and the N load times; and determine the current value corresponding to the target range as the target current value; The power conversion unit (11) is configured to charge the terminal during the charging time corresponding to the target interval, according to the target current value. 6. The power adapter (10) according to claim 1, wherein the adjustment unit (14) is configured to perform the following operations to determine the target current value corresponding to the current voltage value ^or to the amount of battery electric current: select a target range containing the amount of electric current from N ranges of electric quantity values, where N is a positive integer; and determine a current value corresponding to the target range as the target current value, according to the target range and with a correspondence between the N intervals and the N current values. 7. The power adapter (10) according to claim 6, wherein a minimum electrical quantity in a th (1 + 1) th interval of N intervals is greater than a maximum electrical quantity in a ith th N interval intervals, and a current value corresponding to the th interval ( ^í +1) is less than a current value corresponding to the ith interval, where i is an integer selected from 1 to N. 8. The power adapter (10) according to claim 1, wherein the communication unit (13) is configured to perform a following operation to send the request message to obtain a load parameter to the terminal: send the request message to obtain the load parameter to the terminal periodically. 9. The power adapter (10) according to any one of claims 1-8, wherein, the charging interface (12) comprises a power line and a data line; The power conversion unit (11) is configured to form the charging loop with the terminal via the power line in the charging interface, to charge the battery of the terminal; The communication unit (11) is configured to receive the battery parameter sent by the terminal through the data line in the charging interface (12). 10. The power adapter (10) according to claim 2, wherein the N intervals do not overlap each other, and the N intervals are continuous ranges of voltage values or discrete ranges of voltage values. 11. The power adapter (10) according to claim 4, wherein an average value in the set of current values is selected as the target current value. 12. A terminal (20), comprising a battery (21) and a charging interface (22), the terminal being configured to form a charging loop with a power adapter via the charging interface (22) for charging the battery, wherein the terminal (20) further comprises a detection unit (23) and a communication unit (24), the detection unit (23) is configured to detect an amount of electrical current ^or a value of battery current voltage (21) of the terminal (20); and The communication unit (24) is configured to send a battery parameter indicating the amount of electric current ^or the current voltage value to the power adapter, so that the power adapter adjusts an output current to the current value corresponding to the amount of electric current or the current voltage value; characterized in that, the communication unit (24) is configured to perform the following operations to send the battery parameter to the power adapter: receive a request message to obtain the charging parameter sent by the power adapter; and sending a response message for obtaining a charging parameter to the power adapter, wherein the response message for obtaining a charging parameter comprises the battery parameter. 13. The terminal (20) according to claim 12, wherein the communication unit (24) is further configured to receive a request message for obtaining a load parameter from the power adapter; the detection unit (23) is configured to detect the amount of electric current ^or the current voltage value of the battery after the request for obtaining a charging parameter has been received; and The communication unit (24) is configured to perform the following operation to send the battery parameter indicating the amount of electric current or the current voltage value to the power adapter: send a response message to obtain a charging parameter to the power adapter, wherein the response message for obtaining a charging parameter comprises the battery parameter. 14. The terminal (20) according to claim 12 or 13, wherein, the charging interface (22) comprises a power line and a data line; the terminal (20) is configured to form the charging loop with the power adapter via the power line in the charging interface, to charge the battery; The communication unit (24) is configured to perform a following operation to send the battery parameter indicating the amount of electric current or the current voltage value to the power adapter: send the battery parameter to the power adapter through of the data line in the load interface (22).